CN115110799B

CN115110799B - Building demolishing device for demolishing recycled brick wall

Info

Publication number: CN115110799B
Application number: CN202211036461.5A
Authority: CN
Inventors: 孙万富
Original assignee: Suqian Lianghe Industrial Development Co ltd
Current assignee: Suqian Lianghe Industrial Development Co ltd
Priority date: 2022-08-29
Filing date: 2022-08-29
Publication date: 2023-05-26
Anticipated expiration: 2042-08-29
Also published as: CN115110799A

Abstract

The invention discloses a building demolishing device for demolishing recycled brick walls, which relates to the technical field of building demolishing, and comprises the following components: the device comprises a driving base, a clamping mechanism, a dismounting mechanism and a recovery box, wherein a plurality of jacking cylinders are arranged in the driving base, and connecting frames are arranged at the output ends of the jacking cylinders; the two groups of clamping mechanisms are respectively arranged at two sides of the inside of the connecting frame; the dismounting mechanism is connected with the connecting frame and is positioned on the upper side of the group of clamping mechanisms; the recovery box is arranged on one side of the driving base and synchronously moves along with the driving base. The recovery box and the driving base are separated, and after the number of bricks in the recovery box is too large, the recovery box and the driving base can be separated, so that the bricks can be recovered conveniently, and the device can work continuously conveniently; the device is provided with two sets of fixture in the below both sides of detaching mechanism, when detaching mechanism cuts the fragment of brick, can support the downside of wall brick cutting position.

Description

Building demolishing device for demolishing recycled brick wall

Technical Field

The invention relates to the technical field of building demolition, in particular to a building demolition device for demolishing recycled brick walls.

Background

The brick wall is a wall built by bricks and concrete, and can be used as a bearing wall, a peripheral retaining wall and an inner partition wall; when the brick wall building is dismantled, part of brick walls have higher recovery value; in the prior art, brick walls are often broken by means of tools or mechanical devices.

By searching, chinese patent application discloses a building demolishing device (publication No. CN 114704123A) for demolishing recycled brick walls, which comprises a cutting assembly, a transporting assembly, a sorting assembly and a storing assembly for sorting odd and even brick rows, wherein the cutting assembly can cut and take out odd brick rows and even brick rows; the bricks cut by the odd cutting mechanisms or the even cutting mechanisms of the corresponding brick rows of the cutting assemblies are output to the input end of the conveying assembly, and the conveying assembly corresponds to the supporting plate of the classifying assembly through the output end of the conveying belt; and the odd-numbered conveyor belts and the even-numbered conveyor belts of the sorting assembly transport cut bricks and the second sliding table and the first sliding table of the storage assembly correspond to each other, and finally the cut bricks are placed into the brick collecting box.

In prior art, when retrieving the brick wall, if the wall body is too big, then lead to the device to accomodate the brick wall quantity in the structure too big, inconvenient clearance with accomodating the structure to when demolishing, the problem that collapses appears easily to the brick wall has certain potential safety hazard.

Disclosure of Invention

In view of the shortcomings of the prior art, the invention aims to provide a building demolishing device for demolishing recycled brick walls.

In order to achieve the above purpose, the present invention provides the following technical solutions: the building demolishing device comprises a driving base and a recovery box, wherein a plurality of jacking cylinders are arranged in the driving base, connecting frames are arranged at the output ends of the jacking cylinders, and clamping mechanisms are arranged at two sides of the inside of each connecting frame; when the wall is dismantled, the two groups of clamping mechanisms are respectively supported on the two sides of the wall; the dismounting mechanism is arranged on the upper side of the group of clamping mechanisms in the connecting frame; the detaching mechanism is used for sequentially cutting bricks from the inside of the brick wall, and sending the bricks up and down, pushing the bricks, and separating the cut bricks from the brick wall;

the recovery box is arranged on one side of the driving base and synchronously moves along with the movement of the driving base;

the recovery plate is arranged on one side of the connecting frame far away from the dismounting mechanism, the top end of the recovery plate is connected with the connecting frame, and the bottom end of the recovery plate extends to the upper side of the recovery box; the recovery plate is used for guiding the separated bricks to the inside of the recovery box.

Further, one side of the driving base is fixedly connected with a limiting plate, and the recovery box is abutted to one side of the limiting plate;

a plurality of locking mechanisms are arranged in the driving base;

the locking mechanisms comprise output motors, and clamping plates are arranged at the output ends of the output motors;

a plurality of clamping grooves corresponding to the clamping plates are formed in the driving base;

each clamping plate is clamped into the corresponding clamping groove based on the output motor, and the recovery box is clamped and driven to move.

Further, the recovery plate comprises a plurality of plate bodies which are connected in a sliding manner, and the plate body at the lowest side is connected with the driving base through a rotating piece;

the plurality of plates are telescopic based on the change in height of the connector.

Further, a running detection frame is arranged on both sides of the driving base; the driving detection frame is used for detecting the road condition of the moving track of the driving base to obtain road condition information;

the driving base comprises at least three groups of first air cylinders, and driving wheels are arranged at the output ends of the first air cylinders; and each first cylinder adjusts the height of the corresponding driving wheel when passing through the corresponding road section based on the road condition information.

Further, the running detection frame comprises a fixed box connected with the driving base, at least one group of second air cylinders are arranged in the fixed box, and a connecting box is arranged at the output end of each second air cylinder;

the pressure sensing module is installed on the top of the inside of the connecting box, and the third cylinder which is abutted to the lower side of the pressure sensing module is installed in the inside of the connecting box, and the connecting wheel is installed at the output end of the third cylinder.

Further, the working method of the running detection frame comprises the following steps:

a1: starting a third cylinder, enabling the connecting wheel to contact the ground, and enabling the pressure sensing module to generate a reading A;

a2: moving the driving base, and acquiring a reading B by the connecting wheel based on the road condition change and the pressure information between the pressure sensing modules;

a3: the third cylinder changes the height of the fifth wheel based on the reading B until the reading B generated by the pressure sensing module is changed to the reading A, and the change information of the height of the third cylinder is recorded;

a4: the travel detection rack transmits the change information to the drive base, and each first cylinder in the drive base adjusts the height based on the change information.

Further, the fixture comprises a fourth cylinder, a clamping piece is arranged at the output end of the fourth cylinder, and a flexible piece is arranged on one side of the clamping piece, facing the brick wall, and is used for being attached to the brick wall and then reinforcing the brick wall.

Further, the dismounting mechanism comprises a rotating motor, and a fifth cylinder and a sixth cylinder are sequentially arranged at the output end of the rotating motor from bottom to top;

the output end of the fifth cylinder is provided with a cutting assembly;

the pushing piece is arranged at the output end of the sixth air cylinder.

Further, the recovery box comprises a box body, and a screw rod structure is arranged in the box body;

the output end of the screw rod structure is provided with a connecting plate;

the upper surface of the connecting plate is provided with a buffer plate through a plurality of elastic pieces;

the buffer plate is lowered in height based on the increase in the number of interior bricks.

Compared with the prior art, the invention has the following beneficial effects:

the recovery box and the driving base are separated, and after the number of bricks in the recovery box is too large, the recovery box and the driving base can be separated, so that the bricks can be recovered conveniently, and the device can work continuously conveniently;

furthermore, two groups of clamping mechanisms are arranged on two sides below the dismounting mechanism, when the dismounting mechanism cuts bricks, the two groups of clamping mechanisms can support the lower side of a wall brick cutting part, so that the problem that a wall body collapses during cutting is avoided, and the safety is improved;

on the other hand, the both sides of drive base all are provided with and go and detect the frame, and two sets of detection frame that go are used for detecting drive base's travel path, avoid the device when removing, the link takes place great rocking.

Drawings

FIG. 1 is a schematic view of a construction of a building removal apparatus for removing recycled brick walls;

FIG. 2 is a side view of the present invention;

FIG. 3 is a front cross-sectional view of the drive base and travel detection rack of the present invention;

FIG. 4 is a side cross-sectional view of a connector of the present invention;

fig. 5 is a front cross-sectional view of the recovery tank of the present invention.

In the figure: 1. a drive base; 2. jacking the air cylinder; 3. a connecting frame; 4. a clamping mechanism; 5. a dismounting mechanism; 6. a running detection frame; 7. a recovery box; 8. a recovery plate; 9. a limiting plate; 10. a locking mechanism; 81. a rotating member; 101. an output motor; 102. a clamping plate; 110. a first cylinder; 120. a driving wheel; 61. a fixed box; 62. a second cylinder; 63. a connection box; 64. a pressure sensing module; 65. a third cylinder; 66. a fifth wheel; 41. a fourth cylinder; 42. a clamping member; 51. a rotating motor; 52. a fifth cylinder; 53. a cutting assembly; 54. a sixth cylinder; 55. a pushing member; 71. a screw rod structure; 72. a connecting plate; 73. an elastic member; 74. a buffer plate; 75. a case; 76. a rotating handle.

Detailed Description

Referring to fig. 1 to 5, a building demolishing device for demolishing a recycled brick wall includes a driving base 1 and a recycling bin 7, wherein a plurality of jacking cylinders 2 are installed inside the driving base 1, a connecting frame 3 is installed at an output end of the plurality of jacking cylinders 2, and clamping mechanisms 4 are installed at both sides inside the connecting frame 3; when the wall is dismantled, the two groups of clamping mechanisms 4 are respectively supported on two sides of the wall; the dismounting mechanism 5 is arranged on the upper side of the group of clamping mechanisms 4 inside the connecting frame 3; the detaching mechanism 5 is used for sequentially cutting bricks from the inside of the brick wall, feeding the bricks up and down, pushing the bricks, and separating the cut bricks from the brick wall;

the recovery box 7 is arranged on one side of the driving base 1 and synchronously moves along with the movement of the driving base 1;

a recovery plate 8 is arranged on one side of the connecting frame 3 far away from the dismounting mechanism 5, the top end of the recovery plate 8 is connected with the connecting frame 3, and the bottom end of the recovery plate 8 extends to the upper side of the recovery box 7; the recovery plate 8 serves to guide the separated bricks to the inside of the recovery box 7.

One side of the driving base 1 is fixedly connected with a limiting plate 9, and the recovery box 7 is abutted against one side of the limiting plate 9;

a plurality of locking mechanisms 10 are arranged in the driving base 1;

the locking mechanisms 10 comprise output motors 101, and clamping plates 102 are arranged at the output ends of the output motors 101;

a plurality of clamping grooves corresponding to the clamping plates 102 are formed in the driving base 1;

each clamping plate 102 is clamped into the corresponding clamping groove based on the output motor 101, and clamps the recovery box 7 and drives the recovery box to move.

The recovery plate 8 comprises a plurality of plate bodies which are connected in a sliding manner, and the plate body at the lowest side is connected with the driving base 1 through a rotating piece 81;

the plurality of plates are extended and contracted based on the change in the height of the connection frame 3.

Referring to fig. 3, a travel detection rack 6 is mounted on both sides of the drive base 1; the running detection frame 6 is used for detecting the road condition of the moving track of the driving base 1 to obtain road condition information;

the driving base 1 comprises at least three groups of first air cylinders 110, and the output end of each first air cylinder 110 is provided with a driving wheel 120; each first cylinder 110 adjusts the height of the corresponding driving wheel 120 when passing through the corresponding road section based on the road condition information.

The running detection frame 6 comprises a fixed box 61 connected with the driving base 1, at least one group of second air cylinders 62 are arranged in the fixed box 61, and a connecting box 63 is arranged at the output end of each second air cylinder 62;

the pressure sensing module 64 is installed on the top of the inside of the connection box 63, and a third air cylinder 65 which is abutted against the lower side of the pressure sensing module 64 is installed in the inside of the connection box 63, and a fifth wheel 66 is installed at the output end of the third air cylinder 65.

Referring to fig. 4, the clamping mechanism 4 includes a fourth cylinder 41, and a clamping member 42 is mounted at an output end of the fourth cylinder 41, and a flexible member is mounted at a side of the clamping member 42 facing the brick wall for bonding with the brick wall.

The dismounting mechanism 5 comprises a rotary motor 51, and a fifth air cylinder 52 and a sixth air cylinder 54 are sequentially arranged at the output end of the rotary motor 51 from bottom to top;

the output end of the fifth cylinder 52 is provided with a cutting component 53;

the output end of the sixth cylinder 54 is fitted with a pusher 55.

Referring to fig. 1 and 5, the recovery box 7 includes a box body 75, and a screw rod structure 71 is installed inside the box body 75;

the screw rod structure 71 comprises a group of screw rods and three groups of slide rods, and the screw rods and the slide rods are distributed in the inner wall of the box body 75 in a rectangular shape;

the output end of the screw rod structure 71 is provided with a connecting plate 72; the connecting plate 72 is of a rectangular structure, and four corners of the connecting plate 72 are respectively connected with screw threads and slide bars in a sliding manner;

the upper surface of the connection plate 72 is mounted with a buffer plate 74 through a plurality of elastic members 73;

the buffer plate 74 decreases in height based on the increase in the number of interior bricks.

The screw rod structure 71 includes a rotating handle 76, a first bevel gear is installed at the bottom of the screw rod structure 71, one side of the rotating handle 76 is arranged at the outer side of the box body 75, and a second bevel gear in meshed connection with the first bevel gear is installed at the other side.

Working principle:

example 1

Tamping the ground in the bottom area of the wall, wherein the width of the tamped ground is 1.1 times of the sum of the widths of the device driving base 1 and the recovery box 7;

the driving base 1 is moved to one side of a wall body, the jacking air cylinder 2 is started, the connecting frame 3 is lifted to the upper side of the wall body, the driving base 1 is moved to the edge of the attached wall body, the connecting frame 3 is lowered, and the two groups of clamping mechanisms 4 are respectively moved to two sides of the wall body;

when the connecting frame 3 ascends, stretching each plate body in the recovery plate 8;

the output end of the cutting assembly 53 is moved to one side of a brick to be cut in the wall body, the rotating motor 51 is started, and the cutting assembly 53 is rotated to the same angle of the brick masonry part;

a fourth cylinder 41 in the two groups of clamping mechanisms 4 is started, and a clamping piece 42 is attached to one side of the brick wall through a flexible piece on the side edge of the clamping piece;

starting a fifth air cylinder 52 and a cutting assembly 53 to cut the brick, and simultaneously starting a sixth air cylinder 54 to drive a pushing piece 55 to move so as to push the brick;

after the brick is cut, the brick slides into the recovery box 7 through the recovery plate 8 under the drive of the pushing piece 55;

based on the increase of the number of bricks in the recovery box 7, a worker rotates the rotary handle 76 at one side of the recovery box 7 to lower the height of the buffer plate 74;

after the number of bricks in the recovery box 7 is excessive, stopping the movement of the device, and recovering the recovery box 7;

when the recovery box 7 is recovered, an output motor 101 in the locking mechanism 10 is started to separate the clamping plate 102 from the recovery box 7;

then, the new recovery box 7 is moved to be attached between the drive base 1 and the limiting plate 9, and each locking mechanism 10 is started again, and each clamping plate 102 is embedded into a clamping groove in the recovery box 7.

Example 2

When no tamping equipment is provided, the ground concave and convex with the depth of more than 10cm are cleaned, a backing plate is arranged at the concave part, and the convex part is removed;

activating the third cylinder 65, connecting the wheel 66 with the ground, and the pressure sensing module 64 generates a reading A;

moving the drive base 1, the fifth wheel 66 obtains a reading B based on the pressure information between the road condition change and the pressure sensing module 64;

the third air cylinder 65 changes the height of the fifth wheel 66 based on the reading B until the reading B generated by the pressure sensing module 64 changes to the reading A, and records the change information of the height of the third air cylinder 65;

the travel detection rack 6 transmits the change information to the drive base 1, and each first cylinder 110 in the drive base 1 adjusts the height based on the change information.

The above description is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above examples, and all technical solutions belonging to the concept of the present invention belong to the protection scope of the present invention. It should be noted that modifications and adaptations to those skilled in the art without departing from the principles of the present invention are intended to be considered as protecting the scope of the present template.

Claims

1. A building demolition apparatus for demolishing a recycled brick wall, comprising:

the device comprises a driving base (1), wherein a plurality of jacking air cylinders (2) are arranged in the driving base (1), and connecting frames (3) are arranged at the output ends of the jacking air cylinders (2);

the clamping mechanisms (4) are respectively arranged at two sides of the inside of the connecting frame (3);

the dismounting mechanism (5) is connected with the connecting frame (3) and is positioned on the upper side of the group of clamping mechanisms (4);

the recovery box (7) is arranged on one side of the driving base (1) and synchronously moves along with the driving base (1);

the recovery box (7) comprises a box body (75), and a screw rod structure (71) is arranged in the box body (75);

the screw rod structure (71) comprises a group of screw rods and three groups of slide rods, and the screw rods and the slide rods are distributed in the inner wall of the box body (75) in a rectangular shape;

the output end of the screw rod structure (71) is provided with a connecting plate (72); the connecting plate (72) is of a rectangular structure, and four corners of the connecting plate (72) are respectively connected with the screw rod in a threaded manner and are connected with the sliding rod in a sliding manner;

the upper surface of the connecting plate (72) is provided with a buffer plate (74) through a plurality of elastic pieces (73);

the buffer plate (74) decreases in height based on an increase in the number of interior bricks,

the screw rod structure (71) comprises a rotating handle (76), a first bevel gear is arranged at the bottom of the screw rod structure (71), one side of the rotating handle (76) is arranged at the outer side of the box body (75), and a second bevel gear in meshed connection with the first bevel gear is arranged at the other side of the rotating handle;

the top end of the recovery plate (8) is connected with one side, far away from the dismounting mechanism (5), of the connecting frame (3), and the bottom end of the recovery plate (8) extends to the upper side of the recovery box (7);

one side of the driving base (1) is fixedly connected with a limiting plate (9), and the recovery box (7) is abutted to one side of the limiting plate (9);

a plurality of locking mechanisms (10) are arranged in the driving base (1);

the locking mechanisms (10) comprise output motors (101), and clamping plates (102) are arranged at the output ends of the output motors (101);

a plurality of clamping grooves corresponding to the clamping plates (102) are formed in the driving base (1);

the clamping mechanism (4) comprises a fourth air cylinder (41), and a clamping piece (42) is arranged at the output end of the fourth air cylinder (41);

the two groups of clamping pieces (42) are used for reinforcing two sides of the brick wall;

the dismounting mechanism (5) comprises a rotating motor (51), and a fifth air cylinder (52) and a sixth air cylinder (54) are sequentially arranged at the output end of the rotating motor (51) from bottom to top;

the output end of the fifth air cylinder (52) is provided with a cutting assembly (53);

the output end of the sixth cylinder (54) is provided with a pushing piece (55);

the recovery plate (8) comprises a plurality of plate bodies which are connected in a sliding manner, and the plate body at the lowest side is connected with the driving base (1) through a rotating piece (81);

the plurality of plate bodies are stretched along with the height change of the connecting frame (3);

a running detection frame (6) is arranged on both sides of the driving base (1); the running detection frame (6) is used for detecting the road condition of the moving track of the driving base (1) and obtaining road condition information;

the driving base (1) comprises at least three groups of first air cylinders (110), and driving wheels (120) are arranged at the output ends of the first air cylinders (110); each first cylinder (110) adjusts the height of the corresponding driving wheel (120) when passing through the corresponding road section based on the road condition information;

the running detection frame (6) comprises a fixed box (61) connected with the driving base (1), at least one group of second air cylinders (62) are arranged in the fixed box (61), and a connecting box (63) is arranged at the output end of each second air cylinder (62);

a pressure sensing module (64) is arranged at the top end of the inside of the connecting box (63), a third air cylinder (65) which is abutted against the lower side of the pressure sensing module (64) is arranged in the connecting box (63), and a connecting wheel (66) is arranged at the output end of the third air cylinder (65);

the working method of the running detection frame (6) comprises the following steps:

a1: starting a third air cylinder (65), connecting a wheel (66) to contact the ground, and generating a reading A by a pressure sensing module (64);

a2: moving the driving base (1), and acquiring a reading B by the connecting wheel (66) based on the pressure information between the road condition change and the pressure sensing module (64);

a3: the third cylinder (65) changes the height of the fifth wheel (66) based on the reading B until the reading B generated by the pressure sensing module (64) changes to the reading A, and the change information of the height of the third cylinder (65) is recorded;

a4: the travel detection rack (6) transmits the change information to the drive base (1), and each first cylinder (110) in the drive base (1) adjusts the height based on the change information;

the working method of the building demolishing device comprises the following steps:

tamping the ground in the bottom area of the wall, wherein the width of the tamped ground is 1.1 times of the sum of the widths of the device driving base (1) and the recovery box (7);

moving the driving base (1) to one side of the wall, starting the jacking air cylinder (2), lifting the connecting frame (3) to the upper side of the wall, moving the driving base (1) to the edge of the attached wall, descending the connecting frame (3), and respectively moving the two groups of clamping mechanisms (4) to two sides of the wall;

when the connecting frame (3) ascends, each plate body in the recovery plate (8) is stretched;

the output end of the cutting assembly (53) is moved to one side of a brick to be cut in the wall body, the rotating motor (51) is started, and the cutting assembly (53) is rotated to the same angle of the brick masonry part;

a fourth cylinder (41) in the two groups of clamping mechanisms (4) is started, and the clamping piece (42) is attached to one side of the brick wall through a flexible piece at the side edge of the clamping piece;

starting a fifth air cylinder (52) and a cutting assembly (53) to cut the brick, and starting a sixth air cylinder (54) to drive a pushing piece (55) to move so as to push the brick;

after the brick is cut, the brick slides into the recovery box (7) through the recovery plate (8) under the drive of the pushing piece (55);

based on the increase of the number of bricks in the recovery box (7), a worker rotates a rotating handle (76) on one side of the recovery box (7) to lower the height of the buffer plate (74);

after the number of bricks in the recovery box (7) is excessive, stopping the movement of the device, and recovering the recovery box (7);

when the recovery box (7) is recovered, an output motor 101 in the locking mechanism (10) is started, and the clamping plate (102) is separated from the recovery box (7);

then, the new recovery box (7) is moved to be attached between the driving base (1) and the limiting plate (9), each locking mechanism (10) is started again, and each clamping plate (102) is embedded into a clamping groove in the recovery box (7).